Corn picker



Nav. 5, 192g;

R; M. MITCHELL CORN PICKER Fi'ledmarch, 1927' 1o Sheets-sheet l Nov. 59 T1923.P R. M MHCHELL CORN PICKER Filed March 3, 1927 lO Sheets-Sheet 2 NNI Nov. 5, 1929.

v R. M. MITCHELL CORN PICKER lO Sheets-Sheet 3 Filed March 5, 1927 CORN yP1 CKER Filed Maron 3, 1927 1o sheets-sheet v4 Nm. 5, T1929., m M. MWCHELL CORN PICKER l@ Sheets-#Sheet 5 Filed March 3, 19227 NMX Y l/ b l NW1 5, 1929, R. M. MITCHELL CORN PICKER Filed March 5, 1927 lO Sheets-Sheet 6 l R. M. MITCHELL CORN PICKER Nov. 5, 1929.

l0 Sheets-Sheet 7 Filed March 3, 1927 im@ /i/Wcwz,

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K' Nov. '5, 1929.A R. M. Nunn-HELL CORN PICKER Filed March 3, 1927' lO Sheets-Sheet 8 ,gl'l-'K my d NN im f w. CW ,INN MUN) HHHUWMMMIH: e n I@ ww; NNIOWW uw?. w\ mx Q www mm m P @m ,w 11 www U www www m f/Q. w r1 A m .WNWN' QN Nov. 5, 1929.

RL M. MITCHELL CORN PICKER lFiled March 3, 1927 10 Sheets-Sheet 9 Nov. 5, 1929. R. M. MITCHELL CORN PICKER Filed March 3, 1927 l0 Sheets-Sheet 1C NWN.

Patented Nov. 5, 192eN UNITED! s'r'a'rasl PATENT ori-"1ct:

ROBERT MT MITCHELL, OF CHICAGO, ILLINOIS, ASSIGNOR TO AINTERNATIONAL HAR- VESTER COMPANY, A CORPORATlION OF NEW JERSEY CORN PICKER Appiication mea March 3 1927. serial No. 172,308.

This invention relates to harvesting mauchines, andl more particularly to improvements ina corn harvester.

The harvester herein disclosed is a machine mounted for travel in a iield of standing corn. As the machine passes through the field, it snaps the ears of corn from the stalks, transfers the ears to husking mechanism, removes the husks from thev ears of corn and transfers the corn to bagging apparatus, there being groups of bags of corn deposited at intervals in the ield after the machinehasbeen used.

It is an object of the invention to provide a practical and successful corn harvester of such novel construction `that it is advantageously adapted fortractor operation.

A further object of the invention is to provide a corn picker having a draft apparatus and power transmitting connections associated ina novel manner so as to provide for the advantageous operation of the parts of fao the corn picker4 by power driven shafts upon the tractor. I

It is a further object of the invention to provide a composite corn harvester, the component parts of which may be manufactured as complete and self-contained units for facilitating assembly of those parts around a substantially central frame construction.

Another object of the invention is to provide a tractor operated corn picker having its various component parts substantially balanced against each other acrossthe supporting frame for promoting successful operation and 'eliminating unnecessarily destructive vwear upon the machine. Other objects of the inventionwill appear as the description of the invention proceeds.

An illustrative embodimentof the invention is shown in the accompanying drawings in which similar reference characters indicate like parts. V f' In the drawings: a

Figure l is a front perspective view of the assembled machine; 1

Figure 2 is a perspective vView of the frame construction ofthe illustrative machine showing particularly the construction of the main wheel supported frame and the relation o the left hand side of the machine illustratedin Figure l, this view showing a bagging apparatus, the material handling apparatus for delivering corn to the bagging apparatus. and the bag dumping mechanism;

Figure 4 is a perspective view taken from the rear of the illustrative machine and showing the machine at one stage in its assembly, the unitary cleaning mechanism for separating husks and kernels of corn being shown in the foreground of this view;

Figure 5 is a perspective view illustrating the novel manner of mounting the husking roll unit on the machine;

Figure 6 is a vertical sectional view thru the husling roll mechanism and the separating mechanism;

Figure 7 is a plan of the tractor drive connections for operating one form of the illustrative machine;

Figure 8 is adetail view of part of the tractor drive connections; p

Figure 9 is a detailview in vertical section taken on the section line 9-9 of Figure 8;

Figure 10 is a plan of a part of the shield connections taken on the section line 10-10 of Figure 9;

\ lFigure 11 is adetail view taken on thel machinefshowing the general arrangement of all of the operative parts about a central main frame, andthe relation of the draft frame to the main frame and the operative parts.

In the shipment of the machines of the character disclosed herein itis advantageous from manystandpoints to prepare a number Vseparately delivering the ears and kernels.

of packages containing its compone; t parts. Tn the illustrative machine the parts are so arranged that relatively complete units may be assembled and shipped in compact packages ready, upon reaching their destination, to be placed in proper operative relations with a minimum of ditiiculty= The machine will be herein treated as com'- prising a number of such units. Beginning at the left of lfigure 1 of the drawings, there is disclosed' a unit comprising gathering boards,v elevating chains, snapping rolls, and an elevator for receiving material from the snapping rolls and conveying it to a husking mechanism. it the rear of the frame construction shown in Figure 1 is a husliing roll mechanism receivingears of corn from the conveyor of the first mentioned unit. This husking roll mechanism is preferably constructed as a. self-contained unit and is in a superposed position relative to a third unit which comprises mechanisms for receiving husks and kernels of corn from the husking roll mechanism. This third unit separates the husks from the kernels of corn.

A fourth unit shown at the left and rear of the construction illustrated in Figure 1, comprises an elevator combined with ear and kernel separating mechanism and chutes foA fifth unit shown in Figure 1 comprises bagging apparatus including` a bagging platform located substantially beneath the delivery7 end of the chutes of the fourth unit. Tncorporated in the lifth unit is a bagdumping aparatus.

All of the above mentioned units are preferably separately manufactured and are separately and successively assembled around a main frame which may be considered as a sixth unit. Extending forwardly of the main frame 'is a pivoted draft frame herein described as a seventh unit. All of the above mentioned units will hereinafter be described in detail.

The maia frame As illustrated in the drawings the main frame is carried by ground or supporting wheels 10 and 11. These wheels are connected by an axle 12 from which uprights 13 and 14 extend. These uprights are preferably mounted on the laxle between the supporting wheels for promoting` compactness of frame `construction. The uprights 13 and let are connected at their tops by a horizontal beam construction 15 preferably extending outwardly of the uprights and overlying one of the ground wheels at its snapping roll end. This vmuch of the frame construction forms a substantially rectangular arrangement of elements which are shown as being rigidilied by diagonal braces 16 and 17.

Preferably secured to the upright 13 somewhat above the axle 12 is a fore and aft beam 18, the rear end or which is elevated as indicated at 19. Secured tothe other upright 1.4 is a longitudinally extending beam 20. The forward end of beams 1S and 2O are rigidly secured to afront transverse beam 21, a rectangularframe-work beingl completed by a rear transverse beam 22 secured to the beam 1S and Q0 rearwardly of the axle 1Q.

its illustrated, particularly in Figure 2 of the drawings, the transverse beams Q1 and are connected inwardly of they beam 2O by a second fore and aft beam 23 preferably resting near its mid-portion on the top of the beam 21 and secured at its rearward end to the l eam 22. From a position on the transverse beam 21 vand to the right of the connection of that beam with beam 2O (see Figure Q), a balancing beam 2l extends upwardly over the tops of the beams 2O and diagonally of the main frame and toward the rear end of the beam 1S. This balancing beam :El secured at its front end to the'beam 21 and near itsl rearward end is preferably bent downwardly and again upwardly as it approaches the elevated end of the beam 1S.

lnasmuch as a go'odly portion of the weight of the sn'amnng roll mechanism is carried by the main frame at a position adjacent the union of the beams 21 and 2l, and inasmuch as goodly portions of the weights ofthe elevator and the bushing roll mechanism are carried by the frame construction adjacent the rearward end of the beam Q4, this beam acts somewhat as a lever of the first class in balancing portions of the above mentioned mechanisms across an intermediate support provided .for the beams 2O and Q3.r Figure of the drawings illustrates the relation of the rearward end of the balancing beam 2l to the unit-of the machine which contains the mechanism for separating the husks fromv As also illustrated in Figure Ll of the drawings the rearward and elevated extension of the beam 18 has secured thereto two transversely extending platform beams :2G and 27. These beams are substantially parallelv and are connected near their other ends to the rearward extension 2S of the beam 20. Tn Figure el. of the drawings the left hand ends of the beams 2G and 27 are shown as bent upwardly at 2S) toward a beam 2O to which they are secured. T he beam 30 is preferably fixed at its forward end to the beam construction previously described.

s shown in Figures l and 2 of the drawthe main fraaie is provided with a truss t istruction for maintaining the bageing iritform in proper position'. This censiti'uction preferably comprises a compression member 81 located near one end of the transverse beam Q1 and upstandinff therefrom alongside the fore and att beam 18. Extend- Fpivot brackets 34 and 35.

ing over this compression member and downwardly from the top thereof on each ,side are tensin members 32 and 33, herein shown as comprising a` single rod `secured at one end to the beam 21 and at itsfother end, to an extension of that beam.

The right hand ends of the beams 26 and 27, as shown in Figure 4 of the drawings, extend beyond the end of the huskand kernel separating unit for the purpose of insuring the accurate positioning of the elevator relative to the outlet of the husk and kernelseparating mechanism. Pivot brackets 34 and 35 are secured to the Aforward side of the transverse beam 21.l

The draft frame tioned. The side bars 36 are preferably joined at their forward ends and are there secured to a hitch device 38. From this point the bars diverge rearwardly to the pivot brackets 34 and 35.

For advantageously rigidifying the` draft frame, suitable cross bars 39, 40 and 41 eX- tend between the side bars and are rigidly secured thereto. Also extending between the side bars 36 and 37 and rotatively mounted beneath them is a rock shaft 42 provided with crank arms 43 and 4'4. These crank arms are pivota-lly connected by means of links 45 and 46 to the forwardends of the beams 18 and 23. Secured to one of the side bars is a detent bracket 47 for cooperation with a. detent 48 mounted upon the hand lever 49. This hand lever is rigidly secured to the rock shaft 42 and extends to such a position that it affords the operator of the machine convenient access to means for adjusting the frame and thereby raising' or lowering the snapping roll mechanism with reference .to the ground. A thumb latch 50 cooperating with links 51 and 52 and the pivot element 53, enables the oper- I ator to release or engage the detent 48 with the bracket 47.`

An upright 54 is shown secured to the bar 37 -for supporting parts of the power transmitting connections to be hereinafter described.. This upright is suitably strengthened by an inclined brace 55 preferably rigidly secpred to the upright at its upper end and secured to the side bar 36 at its lower end.

The snapping roZZ mecha/)riem The device hereindesignated as a snapping roll mechanism 1s a unitary structure including means for lifting corn stalks, means for guiding the corn stalks toa snapping roll passage-way, means for positivelyA moving the stalks along that passage-Way, means for snapping the ears of cornv from the stalks, and means for transferringor elevating the ears of corn to an elevatedposition from which they are delivered to a husking mechanism. I

In Figure '1 of the drawings the unitary structure aborve speciiiedjs located at the right hand side of the mainframe and positioned so as to extend forwardly of the main frame at the right hand forward cornerthereof. A snapping roll passage-way y is formed f by spaced stalk gatherer guides 61 and 62,

which are; held in. suitably 4spaced positions by an upstanding bridge element 63.

'.At the lower ends of the guides 6l and 62 are forwardly pointed stalk liftingmembers 64 and 65, the inner surfaces of these members sloping inwardly and upwardly, as indicated at 66 and 67. There is thus formed a stalk gathering throat having rearwardly diverging sides.' The points 68 and 69 of the members 64 and 65 are adapted to ride along the ground closely adjacent 'the surface thereof so as to move under any 'corn stalks which are bent or fallen. l

Beneath the guides 61 and 62 are stalk gathering chains 70 and 71 preferably formed with inwardly extending fingers 72 for pushing the stalks of corn up the snapping roll passage-way. As the stalks are moved up this passage-way they are acted upon by ,snappinglrolls73 and 74. These rolls are preferably rotated in opposite directions so that their adjacent surfaces are moving down'-` .wardly to snap the ears of corn from the stalks. The arrangement of the stalk gathering chains and the devices for operating the snapping rolls are similar to those shown in the United States patent to Hagadone 1,303,298, granted May 13, 1919. The details of those devices will, therefore, not be particularly shown o'r described in this annlication.

Mounted alongside the snapping rolls is a conveyor 75 operating. in the -troughs 76 and 77. This conveyor is provided with outwardly projected elements 78 which engage the ears of corn as they leave thev upper endsv Aof the snapping rolls. The ears of corn move upwardly from the.trough 77 to an elevated position indicated at 79.. From this position they are delivered to a mechanism which rei moves the husks.

The husk and ,7cm-acl separating mechanism Aly manufactured, may be separately packed and shipped as a complete unit, and taken trom its package and mounted on the trame with minimum* diiliculty' and with little change in its equipment. As shown, this separating mechanism is a box-like structure having open ends. S6 is mounted an inclinedconveyor' comprising the chains SI and 8S and the connecting conveyor slats SS). ylhe conveyor chains are trained around sprockets 90, 91 and 92.

v.ilhe upper run oi the conveyor is for a considerable distance 'trom its lower end supported by a. husk platform or shield 93 extending tromthe position indicated at 91 to the position indicated at 95. The corn husks falling trom the husking mechanism are intercepted by the platform 03 and are carried upwardly thereover by the conveyor slats 80. Beyond the upper end or" the platform 03 thehusks are supported by a grating 06 which permits kernels ot corn to tall thru to the bottom 0T of the separating mechanism; This `grating preferably comprises longitudinal bars 08 secured substantially in alignment with the platform 93 and supported at their ends as indicated at 09 and 100.

The lower run 101 of the conveyor' moves downwardly so that the slats 89 scrape along the bottom wall 97 tor a considerable portion of the length ot the mechanism. In doing se the slats move the kernels underneath the blower housing 102- and toward the outlet of the separating mechanism shown at the right hand side of Figure 4. The upper and lower runs et the conveyor are suiiiciently separated at their mid-portions to permitI of the mounting ot' the blower housing between them. This housing is secured to the sides and 86. It is substantially cylindrical in form with open ends and with a substantially tangential outlet 103. The open ends ot the housing communicate with the atmosphere thru openings such as that shown at 104 in Figure 11.

Vvlithin the blower housing a fan having radial blades 105 is mounted. This tan is secured to a shaft 106 rota-tively mounted in the supports 107 secured to the sides`ot the mechanism as indicated in Figure f1 of the drawings. A blower directs a blast of air thru the upper end of the box-like structure y and thru the grating 9S for ejecting the corn husks from the machine. This blast of air is `directed substantially asindicated by the arrows 108 and 100.` Beyond-and to the right ot the blower housing 103the conveyor slats move to torce all kernels of corn out of the mechanism .at the outlet illustrated in Figure 4.

The separating mechanism, as illustrated in Figure 11- of the drawings, is mounted substantially inwardly of the projected ends the frame members 26 and 27. These members advantageously operate to insure the correct alignment and positioning et the Between the sides 85 and vertical flanges 112 and 113 ot ther trame members 19 and 2S to eti'ectively hold the separating mechanism in place with a minimum ot securing means. 1n effect, the uprights on one side t' the separating mechanism straddle the flanges 112 and 118. The uprights are secured to the bar 10 on the right hand side of the flange 113 (see Figureet) and the uprights 111 are secured to the bar 28 on the lett hand side ot its iiange 112 thus afording an advantageous arrangement ot' elements t'or effectively maintaining the 1eparatingsmechanism correctly in operating position during the use of the machine.

71e /Lusuug roller mechanism As shown in Figure 5 et the drawings a hashing roll mechanism is mounted upon the rear portion ot the trame above the husk and .kernel separating mechanism. T his husking mechanism comprises a box-like structure ha 'ing side walls 111 and 115 supported at their ends by standards 11G and 1.17. The side walls are connected at the lower end et' the structure by an end wall 11S having a cut out portion 119 at the bottom to provide for a continuation of the outlet of the husk and kernel separating mechanism previously described. The upper end of the wall 11S is formed, as shown in Figure 5 et the drawings, to constitute the continuation ot a chute 120.

Between the sloping side walls of the husking roll melianism, substantially parallel husking rollers 121 are mounted, as indicated in Figure G o1 the drawings. The specific structure ot the husking roller mechanism forms no part of the present invention, it being generally ot the type shown in the patent toHagadone above mentioned. The husking rollers are driven at their upper ends by suitable gearing` comprising elements such as those illustrated at 122, 123 and 12st. Ears of corn are delivered from the upper end of the snapping roll mechanism to the husking rollers, and the husks are stripped from the ears as the latter pass downwardly over the rollers 121. s the ears pass over the rollers they are' pressed into adequate con- ?tact with the rollers by compression devices such as those generally illustrated at 125 in Figure 5.

The compressionydevices include pressure rods 126, a rock shaft 12T ha *ing a crank arm 128, and rock arms 129. The rock shatt is carried by supports pivotally attached to ave/aaai 'the walls 131 and`132. fr lever mechanism generally indicated at 133 operates to regulate the pressure applied to the ears of corn while they are proceeding over the huslring rolls. ln detail the compression devices are similar to those shown in the United States patent to Swanson,-1,553,572 granted Sept 15', 1925. v y

For the purpose of correctly positioning the huslzing roll mechanism and the kernel and husk separating mechanisms relative to each other7 the lower endoil the latter mechanism is substantially straddled by the walls 114 and 115 of the liusling roll mechanism. rlhe end wall 11S also abuts against the lower ends oi the walls ot the lrernel and hush separating mechanism to maintain these parts in their proper operative positions., A. shield 13/1 is mounted above the chute 120 of the huslring roll mechanism., y

YThe elevator, or material handling mechanism `lfor the purpose of delivering the corn from 'the huslring roll mechanism to a position. from which it may be desirably collected, an elevator 135 is provided. vThe manner in whichv this elevator is locatedwith reference to the husliiin'g roll mechanism is well illustrated in Figures 1, 3 andv 6 of the drawings. The elevator is preferably of the endless conveyor type including a chain 136 carrying elevator' platiormsfl'? atv spacedintervals-thereon. v

llach'plat'forin is provided with anti-friction rollers 138 for facilitating the operation of the elevator. The'endless conveyor is mounted within a casing having side walls 139 and 140i As indicated in Figure 6 the side wall 139 isprovidedavit-h a lateral opening in communication with the chute 120 of the huslring roller mechanism. rlhrough this opening the cars ot. corn are received so that they may be carried upwardly by the conveyor. The wall 139 is 'also provided with a lateral opening 1li-1 communicating with the outlet of the husk ,V and kernel separating mechanism, as also indicated in Figure 6' of the drawings.

y rlhe lower end oit the elevator is positioned between the laterally extended ends of the bars Q6 and 27, which are particularly well shown in Figure d of the drawings. This ,construction renders itan easy matter to as- Wsemble the elevator and to properly locate it relative to the husking roll mechanism and lthe separating mechanism.. The member 2?'v l is shown in Figure 3-of the drawings as be# .reference to the huslring roll mechanism and the separating mechanism. ...There is thus provided a structure in the nature or" a pocket withstand the excessive shoclrs and jars incident to travel over rough land, without dieu placement olf its parts.

From the deliveryend ol' the huslzing roll mechanism the elevator extends upwardly to a position from which the corn is received by bagging chutes 1&3 and les. .'lhe chute-143 is oli'est with relation to the upper end of the endless conveyor, a sloping side wall 1115 connecting the conveyor wall la() with the chute' 1413. lhe corn dropping from the end ot the endless conveyor strikes a sieve or screen 148, the position ot which is indicated by the dotted line connecting the points 146 and 147 in Figure 1 of the drawings. 'lf his screen or sieve 148 is preferably located substantially` parallel to the wall 145 so as to provide a pas sageway for the ears of corn. Such kernels kas have been removed from the ears ,i'all thru the screen 148 and into the chute 11111- from 557m bagging plattform As clearly' indicatedinldigure 1 of the the drawings, a bagging platform 151 is lo cated on the side of the main trame opposite from the snapping roll mechanism and is balanced thereagainst. This platform carries a bag supporting device 152 which is provided with any suitable mechanism forholding the tops oi the bags in position below the outlet et the chute 143. A platform extension 153 is located directlyvbeneath the outlet of the chute 144. This extension operates to lhold the bag for receiving the shelled corn.

Secured preferably at the rear side oii the bagging plat-form is a bag dumping apparau tus `including a pivoted dumping platform Suitable 154. This dumping platform is preferably supported on substantially horizontal pivots 155 carried by bars 156 rigidlyv secured to the bagging platform. ,The bag' dumping platform-is normally in unbalanced condition its 'forward end being somewhat heavier so .that

it willreturn by gravity to the position in which it is shown in Figure 3 ot the drawings. A stop 157 extends laterally of the forward end ot they dumping platform in such position that it can be engaged by the illustrative latch mechanis'ini This latch mech anism includes a rock shaft 158 rockably supported on the platiorindm. The rearwarden-d of the rock shaft V158 is provided with a cranlr` arm 159 which iny the position 6 'ipse-,sei

engaging the stop 157. The roel; shaft is provided at its forward end with a trip arm 1GO located in convenient proximity to a seat 161. The forward end of the dumping platform is connected to a bagging platform brace 162 by a chain 163.

In operation the filled bags of corn are piled-upon the dumping platform 15e!C in such a manner that' the major part of the weight carried by the platform is carried rearwardly f its pivots 155. `When a desired number of bags have been piled upon the platform, the operator steps upon the trip 1GO and thereby releases the stop 159 from contact with the stop 157. This allows the platform 15e to tilt and deposit a number of bags upon the ground.

The tractor drive connections v indicated at 165, and the power take-olf shaft,

at 166. In this form of the machine, the rear end of the power take-olf shaft 166 is supported by a transverse bar 167 secured to the tractor.

The draft frame which has previously been describedis secured to the drawbar by meangrof the hitch device 38, and the draft frame carries or supports most of the tractor drive connections. This will be seenfrom an inspection of Figures 1 and 7 of the drawings. i

vIn connection with the use of the corn picker shown in Figure 7, it is desirable that the rpicker operate in a path offset from the path-of movement ofthe tractor, and for this purpose the draft frame and the tractor drive connections are angled as illustrated in Figure 7. The main frame of the corn picker carries a mainshaft 168 preferably journaled transversely. of the machine andsupported by the horizontal beam construc-l tion 15 connecting the uprights '-13 and 14. As shown in Figure 7 of the drawings, the shaft 168 carries a bevel gear 169 at one end, this end of the shaft being journaled in a bracket 170, vwhich alsofrotatably supports a shaft 171 connected by the power transmission devices described below with the power take-olf shaft 166 of the tractor.

The bracket 1'1'0 is preferably lil-shaped, as shown in Figure 7, so as to afford adequate support for the shaft 171. 1t provides a forward. j ournalv 1T 2 and a rearward journal 173 for that shaft.

r1"he forward end of the shaft 171 is connected by means of a universal joint 173 with one of the parts 17aL of a telescopic and eX- tensible shaft construction, the other part ofv this construction being a square shaft 175 connected by a universal joint 176 with an intermediate shaft 177 indicated by the dotted lines in Figure 8. This shaft 177 is preferably journaled at the top of the upright 5e carried bythe draft frame and shown in Figure 1 of the drawings.

The forward end of the shaft 177 is connected by a universal joint to another telescopic shaft connection similar to that comprising the parts 174 and 175. A part of this construction is shown at the left hand end of Figure 8 at 178.-. r:the forward end of this telescopic shaft construction is connected by a universal joint to the power take-off shaft 166 of the tractor.

The szz'eZcZ constructief/t for Hic-tractor Zroe connections chines by reason of the' exposed condition of the shafting and the universal joint construction. These constructions have frequently caught the clothing of an attendant or operator and caused it to be wound about the rotating parts, resulting in serious injury. All likelihood of such injuries is eliminated in the illustrative machine by the protective housings or shield constructions which prevent the rotating parts from coming into contact with the operator or attendant.

The protective housings include a number of pivotally and angularly related parts so designed as to take care of the different angularv relationships of the tractor and the picker and to also take care of the dilierent pivotal relationships of the-draft frame and the main frame. These parts include a housing forlr shown in the drawings to be an integral part of the bracket 170. This fork comprises an upper pivot arm 180 and a lower slide support `181. The arm 180 and the support 181l are preferably branched or separated to suoli an extent that adequate clearance'is provided for the rotation of the uni-- versal joint 173. r

The forward end of the arm 180 is shaped as illustrated in Figures 10 and 9 of the drawings. .lt is not only formed with a round nose 182 but its endv portion is also shaped somewhat similar to a portion of thesurface of a sphere for purposes to'later appear. The nose 182 is formed with a square open-' ing 183 for receiving a shouldered portion,

184 of the pivot bolt 185.

Secured in operative relation to the nose portion 182 of the pivot arm 180 by means iso lll

` ward end by a tongue truck 209. The tongue y weasel of the bolt 185 and its nut 188 is an enlarged ceives the bolt 185 so that the former may have pivotal movement in a plurality of 'planes upon the spherically curved pivot arm 180. ln order that such movement may take place without unnecessary vibratiom wear, and strains, that part of the bell-end 187 which contacts withthe pivot arm 180 is formed on spherical curvatures corresponding to the curvatures of the pivot arm.

Desirable up and down pivotal movements of the housing part 188 relative-to' the bracket are permitted by co-operating slide portionsl formed upon the lower sideof the bell` end 187 and the support 181. As shown in Figure 9 of the drawings, `bell-end 187 is formed with two integral extensions or parallel walls 189 and 190. `These walls form a lguide-way in which the pivot block 191 may have sliding moi-'ement This pivot block 191 is formed with a circularl opening 192 for receiving a round stud 193 preferably integrally formed with the support 181.

Slidably received by the housing 188 is a sleeve or second housing part 191 carrying at its forward end a bell-end structure 195. This bell-end structure 195 is similar to the structure of the bell-end 187r previously described. Thefbell-end 195 co-operates with an intermediate housing 196 having at its rearward end a housing fork carryinga pivot arm 19? and a slide support 198 similar in construction to the pivot arm and the slide support 181.

At the forward endof the intermediate housing 196 arms 199 and 200 are Asecured for connection with the bell-end 201 of the housing` 202 secured to a telescopic part 203. Part 203 telescopes within asleeveconstruc- Ation 2041 supported by a bellend 205 which is in turn supported by a bracket 206 carried by the tractor.-

The horse drawn. mach/ne '1n Figure 12 of the drawings,'a modification of the illustrative machine is shown. In this form of the machine the draft frame is replaced by a tongue frame with which is associated a tongue truck and a tongue for adapting the machine for horse operation.

The operative mechanisms including thesnapping rol mechanism, the husking roll mechanism, and the elevator for delivering material to the bagging apparatus are driven by a unitary power plant rigidly mounted 'upon the main frame. d 1

As here shown the tongue truck frame comf prises a. stub tongue 208 supported at its fortruck has a vertical shaft 210 upon 'which the stub tongue is pivotally mounted. lThe other end of the stub tongue is pivotally connected to the main frame har 21 at 211. -A`

frame bar 212 connects the forwardv end ofA the stub tongue to the bar 21. There is preferably a pivotal connection for the" rear end of the bar 2127 connecting it to the main frame.

The bar 212 is rigidly connected to the stub tongue 208 by a cross beam 213 and a roekshaft l 214'. The rockshaft is rotatably mounted in both thel stub tongue and the crank arms are connected. by links with the forwardly extending lend'of then bars 18 and 28 in much vthe same manner as that indicated in Figure 2-of the drawings. A hand lever mechanism 217 co-.operutes with a detent bracket 218 for adjusting the relative pivotal posit-ions of the main frame and the tongue frame. y

For the purpose `ot securing draft animals to the illustrathfe machine a tongue 219 is pivoted to the stuh tongue" 20.8 at a position forwardly of the tongue truck. ,An equalizing bar 220 is pivotally mounted upon the stub tongue 208 'rearwardly of the tongue truck. ing the equalizer barncorrect position upon the stub tongue. Rig-idly mounted upon the main frame of the machine and to the rear of the operators seat 222 is a unitary power plant 228, preferably of the internal combustion engine type,

A holder 221 is shown for maintainarranged with its crank shaft 2241 extending transversely of the machine. This crank shaft is connected with the shaft 168 by means of a power transmitting connection 225. The shaft 168 is the previously described. shaft, used' for Operating all of the parts of the corn picker.

The clrczng mechanism ln Figurel of the drawings a diagram-l matic illustration 'of the oWer transmitting connections-fordriving all of the operative parts of the corn picker is presented; Most Vof the parts of these driving connections are used in either of the forms of the machine previously described. When the 'tractor pulled and tractor operated machine is used the central 'power shaft 168 is driven by the shaft 171 thru the intermediacy of bevel gears 189 and 226. Under these conditions the 'sprocket chainA 225 and the shaft 221- are not used. These latter devices are used in .place of the 'shaft 171 in the horse drawn machine. in either machine all of the operative parts receive their power from the central power shaft 168. i

At the' endV of the shaft 168 opposite the bevel gear 1G9is a bevel pinion 227 from which power is taken to drive the-snapping roll mechanism. This' pinion drives an extension shaft 228 which is )flexibly connected, as illustrated at 229, to one of the snapping rolls, A bevel gear 230 fixed upon'the shaft 228 is in mesh with the pinion 227. A hand wheel 281 is aed on the outer end of the shaft 228.

lill

AThe stalkgathering chains 70 and 71 are Aoperated by bevel gears 232 meshing respectively with pinions 233 and 234. The pinion 233-is mounted upon a counter-shaft 235 which is driven from the shaft 228 by the sprocket chain 236. The shaft 237 for the pinion 28a receives its power from the countershaft 235 thru a sprocket chain 23S.

Power is transmitted from the central power shaft 16S for driving the husking roll mechanism and the husk and kernel separating mechanism by a bevel pinion Aroll shaft, 2st-2 thru fthe 106, a counter-shaft`246 is provided.

meshing with atbevel gear 24() secured upon shaft 2-11. `The shaft 241 drives the husking intermediacy of sprocket gearing 243. 4

` Gearing. for driving the husking rollers 121 fromtheshaft 2-.t2`is illustrated in Figure 14 of the drawings. The husking rollers are connected at their ends by intermeshing spur gears 122 and every alternate one-of the huskingrollers` is provided With a bev-el pinion 243 meshing with a bevel gear 24dfixed upon counter-shaft 245. Spur gearing represented by the spur gears 123 and 124 operatively connects the shafts 24:2 and 2&5.

For driving the fan 105 and the fan shaft This counter-shaft is located between the shaft 242 and the shaft 106 and is connected to those' shafts by sprocket chains 247 and 248. Thev rearward end cfs-the shaft 2112 lis connected by means of ajsproc-ket chain 249 to a shaft 250 for driving the `husk conveyorA of the husk and kernel-.separating mechanism.

An agitator drive shaft 251 extending beyond the confines of the husking roll mechanism illustrated by the dotted rectangle 252 is driven by povvler derived from the shaft 242. A sprocket chain 253 connects a sprocket Wheel 254 on shaft 245 with a similar sprocket Wheel on shaft 251.

TheA elevator illustrated by the dotted line 'rectangle 255 is operated from'a countershaft 256 provided with a central sprocket Wheel 257 for engaging the conveyor chain. The other end of shaft 256 is connected by means of sprocket chains 25S and 259 to the central power shaft 168, there being a countersha-ft suitably interposed for the purpose of properly correlating the speed of the elevator conveyor to the speed of the central power shaft.

. .Although the invention has been described With relation to specific structures, it is to be snapping roll mechanism and an elevator adapted to be mounted on one sideof the frame, the second unit being a husking rll mechanism adapted to be carried at the rear of the frame to receive material from the first unit, the third unit comprising a self contained cleaning and separating mechanism for separating corn husks from corn kernels and adapted to be mounted on the frame adjacent the second unit to receive material therefrom, the fourth unit comprising an`elevator adapted to be mounted on the frame opposite the first unit and in connnunication with the third unit, and the fifth unit comprising a bagging apparatus and bag dumping mechanism adapted to`be carried on the frame adjacent the fourth unit, all of said units being removable from the frame as separate entities.

2. A corn picker comprising, in combination, a Wheel supported main frame, and a plurality of separately manufactured and separately assembled devices mounted on said vfra-ine so as to substantially enclose the frame,

said devices constituting complete units, the first unit comprising snapping roll mechanism and an elevator adapted to be mounted on one side of the frame, the second unit being husking roll mechanism adapted to be carried at the rear of the frame to receive material from the first unit, the third unit 'comprising a self contained cleaning and separating mechanism for separating corn husks from corn kernels and adapted to be mounted on the frame adjacent the second unit to receivel material therefrom, the fourth unit comprising an'elevator adapted tobe mounted on the frame opposite the first unit and in communication With the third unit, the fifth unit comprising a bagging apparatus and bag dumping mechanism adapted to be carried on the frame adjacent the fourth unit, and means included in the main frame for interlocking the second and third units in proper operative relationship, all of said units being removable from the frame as separate entities.

A machine of the type described Wherein snapping roll mechanism and husking roll mechanism are employed for the picking and husking of ears of corn, the combination therewith, of a Wheel supported main frame, a rigid draft frame' extending forwardly from the main frame and pivotally related for changing the relative positions ofthe power transmitting connections carried by the draft frame and the support for driving the snapping roll mechanism and the husking mechanism from a tractor attached to the forward end of the draft frame.

4. A harvester of the class described, comprising, in combination, a frame, ground Wheels for supporting said frame, stalk gaththereto, means carried by the draft frameA collection means supported by the frame at the side opposite said snapping roll mechanism so as to receive material from the material handling' mechanism, 'a draft device attached to the frame andextended forwardly thereof," power transmission apparatus sup-l ported by said draft device, and means extending transversely of the frame for balancingthe snapping roll mechanism against said material handling mechanism, said draft device and power transmission devices being balanced across the frame against the liusking mechanism.

5. A corn picker comprising, in combination, a break-joint frame, snapping roll mechanism and stalk gathering apparatus carried at'one side of the frame, material handlingY apparatus and a material collection apparatus located at the opposite side of said frame, means extending transversely of the frame for balancing said stalk gathering ap- -paratus against said material handling and collection apparatus, and means for adjusting the frame parts for appropriately varying the action of the stalk gathering mechanism without disturbing the balanced condition of the aforesaid devices.

G. In a machine of .the class described a main frame, ground wheels for supporting the main frame, stalk gathering mechanism and snapping roll mechanism supported by the frame and mounted as a unit at one side of the frame adjacent one of the ground wheels, husking mechanism carried by the frame at the rear of the ground wheels 'and so located as to receive material from the snapping roll mechanism, an elevator carriedl at the side of the frame opposite the snapping rollmechanism and located in aposition to receive material from the husking mechanism, .bagging chutes below the forward and upward end of the elevator, a bagging platform carried by the frame, means for supporting the bagging platform substantially beneath the outlets of the bagging chutes and at the side of the frameopposite the snapping roll mechanism, and means carried by the frame. between the snapping roll mechanism and the elevator for balancing the snapping roll mechanism, the husking mechanism and the elevator.

27. A corn picker of the class described comprising, in combination, a main frame, ground wheels for supporting the main frame, snapping roll mechanism carried by the mam frame, husking n'cechanisml carried by the mainframe, a bagging platform carried by the frame, and bag dumping apparatus located adjacent the platform, and means accessible from a position on the platform for controlling the bag dumping apparatus.

' 8. A corn picker of the class described comprising, in combination, a main frame, ground wheels for supporting the main frame, snapping roll mechanism carried by the main frame husking mechanism carried by the` main frame, a bagging platform carried by the frame, devices for separating ears of corn from thekernel of shelled corn, a bagging platform carried by the frame, and bag dumping apparatus located adjacent the platform,v and means accessible from a posi.-

tion o'nthe platform for controlling the bag dumping apparatus.

' 9. A machine of the class described, comprising, in combination, a frame, supporting wheels, stalk gathering apparatus and snapping rolll mechanism supported by the frame at one side and externally of one of said supporting wheels, husking roll mechanism at the rear of said frame and positioned transversely thereof, said husking roll mechanism positioned so as to receive material from said snapping roll mechanism, material handling mechanism supported by the frame `at the side opposite said snapping roll mechanism and located soas to receivev material from` the husking mechanism, all of said above mentioned devices comprising a substantially Y U-shaped arrangement enclosing said frame and said supportingwheel, power transmitconnections supported by the frame Witthin said U-shaped arrangementiand operatively connected to all of said devices for driving them, and means extendingacross the frame for balancing said snapping roll mechanism against the'other devices.

lO. Afram construction for corn pickers comprising, in combination, supporting wheels, an axle extending between said wheels, an upright carried by the axle adjacent .to and inside of each wheel, a beam connecting the upper ends of the uprights and secured thereto, a fore and aft beam connected to one of the uprights and extending considerably rearwardly of and forwardly of one of the wheels, .a forward transverse beam, a rear transverse beam, the forward transverse beam being located a substantial distance rearwardly of the end of the fore and aft beam so that the-latter overhangs the constructiony above set fort-h, a rigid draft frame pivotally related to the forward transverse beam and positioned mainly below the fore and aft beam, a rock shaft mounted on the draft frame, a crank arm on the rock shaft, a link connecting the crank arm with the forward -end of the fore and aftbeam, and means for adjusting the rock shaft to change the relation of the draft frame relall. Wheel supported frame, stalk gatherers and snapping rollmechanism at one side of the frame, husling mechanism at the rear end of the frame for receiving material from the snapping roll mechanism, elevating and separating mechanism at the side of the frame opposite from said snapping roll mechanism and sosituated as to receive material from the husliin'g mechanism, material gathering and dumping mechanism at the delivery end of said elevating and separating mechanism and carried by the frame at the side opposite `from said snapping roll mechanism, and means extending across the frame for balancing the snapping roll mechanism against the mechanism at the opposite side of the frame.

l2. A corn picker of the class described comprising, in combination, a main frame, ground wheels for supporting the main frame, a rigid draft frame pivotally attached to the mainframe'and extending forwardly therefrom, snapping roll mechanism and husling mechanism mounted upon the main frame, an upright secured to the main frame, a second upright secured to the draft frame, power transmitting devices supported by said uprights for driving the snapping roll mechanism and the husling mechanism from a position adjacent the forward end of the draft frame, said power transmitting devices including telescoping connections between said uprights, and means for changing the pivotal relationship of said frames.

13. A corn harvester of the class described comprising, in combination, a main frame, ground Wheels for supporting the main frame, a beam extending across the main frame in a fore and aft direction, a draft frame at the frontof the main frame and secured to theforward end of said beam; huslzing roll mechanism located at the rear end of the beam so that a part of its Weight is borne thereby, a snapping roll mechanism carried at one side of the main frame, a material handling mechanism,carried/at the opposite side of the main frame, said frame including a beam construction extendingl transversely thereof from the snapping roll mechanism to the material handling mechanism so as to balance the one against the other, and power translnitting devices carried by the draft frame and the main frame for operating the snapping roll mechanism and the huslring roll mechanism.

14. A corn picker of the class described comprising, in combination, a` Wheel supported main frame, gathering means carried by the frame for removing ears of corns from their stalks, corn husking mechanism devices for separating shelled corn from the ears of corn and separately bagging them,

machine of the class described, al

bag dumping mechanism, and power transmitting devices carried bythe frame for operating the gatherin and hushing mechanisms.

l5. A corn picher of the class described comprising, in combination, a wheel supported frame, snapping roll mechanism, corn supported frame for operating thesnappingv roll mechanism and the huslring mechanism, the bagging apparatus and the snapping roll mechanisi'n being located on opposite sides of the Wheel supported frame so as to substantially balance each other across said frame, and the huslring mechanism being located at the rear of the wheel supported frame so as to be substantially balanced against the draft frame and part of the power transmittingconnections.

16. .fr corn picker of the class described comprising, in combination, a wheel supported main frame, a rigid draft frame pivotally secured to the main frame and located forwardly of the main frame, means carried by the draft frame for changing the pivotal relationship ofthe main frame and the draft frame, an upi A it secured to the draft frame, a second upright secured to the main frame, and power transmitting devices having telescoping parts extending between and supported by said uprights.

17. A corn harvester comprising, in conn bination, a wheel supported main frame, a bagging platform secured at one side of said frame, a normally unbalanced bag support secured to the bagging platform, and a trip mechanism for controllinfr the dumping of bags.

1.8. A corn picker of the class described comprising, in combination, a wheel supported main frame, a rigid draft frame pivotally related to the main frame and located forwardly of the main frame, means for changing the pivotal relationship of the main frame and the draft frame, an upright secured .to the main frame, -an upright secured to the draft frame, and power transmitting devices having telescoping parts extendingbetween and supported by said uprights.

19. A corn harvester of the. class described comprising, in ccmbinatioma main frame, ground Wheels for supporting the main frame, a beam extending across the main frame in fore and aft direction, a draft frame at the front of the main frame and movably related to the forward end of said beam, husling roll mechanism located adjacent the rear end of the beam so that at least a part 

